Faculty of Engineering & Technology KAKATIYA UNIVERSITY, … ME 3 2 syllabus... · 2020. 10. 5. ·...

Faculty of Engineering & Technology 2020-21

Faculty of Engineering & Technology

KAKATIYA UNIVERSITY, WARANGAL-506 009

Department of Mechanical Engineering

B. Tech. (Mechanical) VI SEMESTER

S. No.

Course

Code

Course Title

Scheme of Instruction

Lecture Hrs/ week

Scheme of Examination

Credits

L

T

P

CIE SEE

Theory 1

PC3201ME Metal Cutting Science &Unconventional Machining process

3 - - 3 30 70 3

2 PC3202ME Heat Transfer 3 1 - 4 30 70 4

3 PC3203ME

Refrigeration and Air conditioning

3 - - 3 30 70 3

4 PE-II* Professional Elective-II 3 - - 3 30 70 3

5 OE-I* Open Elective -I 3 - - 3 30 70 3

6. HS3208

Managerial Economics and

Accountancy 3 - - 3 30 70 3

PRACTICALS

7. PC3209ME Metal Cutting science Lab - - 3 3 25 50 1.5

8. PC3210ME Thermal Engineering-II Lab - - 3 3 25 50 1.5

PW3211ME Summer Internship - - - - - - -

Total 18 1 6 25 230 520 22

Note: Please refer annexure-I for open elective -I

*(PE-II) PROFESSIONAL ELECTIVE COURSE-II PE3204ME Finite Element Analysis

PE3205ME Fatigue, Creep and Fracture

PE3206ME Theory of Elasticity

file:///C:/Users/manesh%20ku%20dhora/B.E%203%20Year%20Revised_Syllabi%20(2009-10)/BE%20Mech%20III%20year%20Syllabus_Revised%202009-10.docfile:///C:/Users/manesh%20ku%20dhora/B.E%203%20Year%20Revised_Syllabi%20(2009-10)/BE%20Mech%20III%20year%20Syllabus_Revised%202009-10.doc

With effect from the academic year 2020-2021

2





B. Tech. (ME) VI SEMISTER

PC3201ME

METAL CUTTING SCIENCE AND UNCONVENTIONAL MACHINING

Course code PCC

Category Professional Core Course

Course title Metal Cutting Science and Unconventional Machining

Scheme and Credits L T P Credits Internal marks = 30

3 - - 3 External Marks = 70

Unit-I

Basic chip formation process. Tool geometry: Nomenclature of single point cutting tool by ASA,ORS

and NRS. Geometry of drills, Milling cutters and broaches. Recommended Tool angles.

Chip formation: Types of chips, BUE, Chip breakers. Machining: Orthogonal and oblique cutting,

Mechanics of Orthogonal Cutting: Merchant’s analysis, Friction. Shear angle: Shear angle Solutions of

Merchant and Lee & Shafer. Cutting tool materials: High carbon steel, HSS, Carbides, Ceramics, Coated

carbides, Cermets, HPC, CBN & Diamond.

Unit-II Measurement of Cutting Forces: Lathe tool dynamometers, Drilling, Milling and Grinding

Dynamometers .Thermal aspects of metal cutting: Sources of heat and heat distribution, various methods

of measurement of temperature, Cutting fluids and applications. Tool wear, Tool life & Machinability:

Types of wear, mechanism of tool wear, Tool life & Machinability. Effects of process parameters on

Tool life, Taylor’s tool life equation. Economics of machining: Tool life for maximum production,

minimum cost.

Unit-III

Ultrasonic Machining (USM):Process description, abrasive slurry, Abrasive materials and their

characteristics. Functions of liquid medium in slurry .Types of Transducers ,effect of process parameters,

applications and limitations.

Abrasive Jet Machining (AJM): Principle of operation, process details, process variables and their effect

on MRR and accuracy. Equation for MRR. Advantages, disadvantages and applications.

Water Jet Machining (WJM): Schematic diagram , equipment used, advantages and applications.

Unit- IV Electro Discharge Machining (EDM):Process description with schematic diagram, process parameters,

functions and characteristics of dielectric medium, dielectric fluids, over cut and side taper Flushing,

Mechanism of metal removal, crater volume, types of power supply

circuits,mathematicalanalysisofmetalremovalrate(MRR),characteristicsofsparkerodedsurfaces,advantage

s,disadvantagesand applications, wire electro-discharge machining principles and description.

Electro-Chemical Machining(ECM):Schematic of the process, process parameters, function and

characteristics of electrolyte, chemistry of the process. Equation for specific MRR and electrode feed

rate, advantages, limitations and applications. Rotary Machining, Hot machining, high speed machining,

description of each process, process parameters, advantages and applications.


3


Unit-V

Laser Beam Machining (LBM):Principle of Laser Beam production, materials used, thermal analysis of

the process, process parameters, equations for power density and machining rate, advantages, limitations

and applications.

Plasma Arc Machining (PAM): Equipment used, process description and parameters, types of plasma

arc: Transferred arc and non-transferred arc and process applications.

Electron Beam Machining (EBM): Schematic of the process, process parameters, principle of production

of Electron beam, equipment used, Advantages, disadvantages and applications.

Hybrid Machining Processes: Principle of Hybrid machining process; Classification of hybrid

machining Processes; Ultrasonic assisted Electro-chemical machining; Electro-chemical Hybrid

Machining Processes (ECHMP); Electro-chemical Grinding machining; Electro-chemical Discharge

Machining; Electric Discharge Grinding and Abrasive Water Jet Machining

Suggested Reading: 1. David A. Stephenson, Johs S. Agapiou, “Metal Cutting Theory and Practice”, CRC Press,

3rdEdition, 2016. 2. B.L. Juneja ,Shekhon G.S. and Seth Nitin, “Fundamentals of Metal Cutting & Machine tools”, New

Age Publishers, 2003. 3. A. Bhattacharyya, “Metal Cutting Theory and Practice”, New Central Book Agency (P) Ltd.,

2006. 4. AmitabhaGhosh and Ashok Kumar Mallik, “Manufacturing Science”, Affiliated East-West Press

Pvt. Ltd., 2ndEdition, 2010. 5. Winston A. Knight and Geoffrey Boothroyd, “Fundamentals of Metal Machining & Machine

tools”, CRC Press, 3rd Edition, 2005. 6. McGeough JA, “Advanced Methods of Machining”, Chapman & Hall, 1988. 7. Pandey PC. and Shah H.S., "Modern Machining Process", Tata McGraw Hill Publishing Co. Ltd.,

New Delhi, 1980

8. Bhattacharya A., "New Technology", the Institution of Engineers, India, 1984.

9. Davies and Austin, "Developments in High Speed Metal Forming". The Machinery Publishing Co.

Ltd., 1985

10.Mikell. P. Groover "Principles of Modern Manufacturing" Wiley India Pvt. Ltd., New Delhi, 2014. Hassan Abdel-Gawad El-Hofy, Advanced Machining Processes, Nontraditional and Hybrid

Machining Processes, McGraw Hill Publishing Co. Ltd.

https://www.amazon.in/s/ref=dp_byline_sr_book_1?ie=UTF8&field-author=Winston+A.+Knight&search-alias=stripbookshttps://www.amazon.in/s/ref=dp_byline_sr_book_2?ie=UTF8&field-author=Geoffrey+Boothroyd&search-alias=stripbooks


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PC3202ME

HEAT TRANSFER Course code PCC


Course title Heat Transfer


3 1 - 4 External Marks = 70

Unit-I

Heat transfer fundamentals: Basic heat transfer mechanisms (conduction, convection and radiation),

Conduction: General conduction equation on plane wall, Cylinders and spheres.

One dimensional steady state conduction through plane walls, hollow cylinders and spheres with and

without heat generation .Thermal resistance network, Boundary Conditions, Effect of variable thermal

conductivity for one-dimensional steady-state conduction in a plane wall .The critical radius of

insulation.

Unit-II

Fins: Heat transfer analysis of a body with negligible internal temperature gradients, fins efficiency and

effectiveness.

Lumped system analysis within the body with negligible internal temperature gradients. Transient heat

transfer analysis of an infinite slab with specified temperature and connective boundary conditions. Use

of Grover &Heisler charts for solving problems of infinite slabs, cylinders, spheres.

Unit-III

Convection: Physical mechanism of convection, Buckingham pi-theorem and use of dimensional

analysis in free and forced convection, Physical significance of different dimensionless numbers.

Concept of velocity boundary layer, thermal boundary layer.

Reynolds analogy, Chilton-Colburn analogy for turbulent flow over flat surfaces. Calculation of heat

transfer for flow over plates, cylinders and in pipes in free and forced convection using empirical

formulae.

Unit-IV

Radiation: Absorptivity, Reflectivity, and Transmissivity, Concept of a blackbody, Emissivity, the

Planck Distribution law, Wien’s Displacement Law, Stefan-Boltzmann, Kirchhoff’s Law. The View

factor, View factor relations, View Factors between Infinitely Long Surfaces: The Crossed-Strings

Method Radiation exchange between Opaque, Diffuse, Gray Surfaces in an enclosure: Blackbody

radiation exchange, the two-surface enclosure, radiation shields.

Unit-V

Heat Exchangers: Heat exchanger types, overall heat transfer coefficient. Heat exchanger analysis: Use

of the Log Mean Temperature Difference (Parallel-Flow, Counter-Flow), the Effectiveness–NTU

Method. Heat Exchanger Design and Performance Calculations (LMTD, ε-NTU methods), Selection of

heat exchangers.


5

Boiling: Pool boiling regimes, nucleate pool boiling, and critical heat flux for nucleate pool boiling,

minimum heat flux.

Condensation: Physical Mechanisms, Laminar Film Condensation on a Vertical Plate, Turbulent Film

Condensation, drop wise condensation. Suggested Reading:

1. John H Lienhard IV, John H LienhardV,A“Heat Transfer” Textbook, Fifth Edition, Phlogiston Press, 2019.

2. Theodore L. Bergman, Adrienne S. Lavine, Frank P. Incropera, David P. DeWitt "Fundamentals of Heat and Mass Transfer", 8th Edition, John willey& Sons, 2018.

3. J.P. Holman, “Heat Transfer”, Tenth Edition, McGraw Hill Companies Inc., 2010. 4. Yunus A Cengel, “Heat Transfer A Practical Approach”, Second Edition, McGraw-Hill, 2002 5. James R. Welty, Charles Wicks, Robert Wilson, Gregory Rorrer, “Fundamentals of Momentum,

Heat and Mass Transfer”, 4th Edition, John Wiley and Sons Ltd, 2001


6






PC3203ME

REFRIGERATION AND AIR CONDITIONING Course code PCC


Course title Refrigeration and Air conditioning



Unit-I

Definition of Refrigeration & Air Conditioning: Necessity of refrigeration. Applications of

refrigeration and air conditioning. Units of refrigeration. Refrigerants classification and desirable

properties of refrigerants. Air refrigeration: Carnot refrigeration cycle and its limitation. Air

refrigeration cycle operating on Brayton cycle and analysis. Aircraft refrigeration: Necessity.

Advantages of using air cycles for aircraft refrigeration. Refrigeration systems for low and high speed

aircrafts.

Unit-II

Vapour compression system: Simple vapour compression cycle: COP, representation of cycle on T- S,

P-H and H-S diagrams. Actual vapour compression cycle. Effect of superheating and sub cooling–

problems.

Vapour absorption refrigeration systems: Ammonia –water, Lithium Bromide – water systems.

Improvements using analyzer and rectifier. Desirable properties of combinations. Electrolux

refrigerator – It’s working.

Unit-III

Steam jet refrigeration systems: Analysis using T-S and H-S diagrams. Quantity of motive steam

required. Use of barometric and evaporative condensers. Limitations and advantages of steam jet

systems.

Thermoelectric refrigeration systems: Seebeck effect, Peltier effect and Thompson effect. Analysis of

the thermoelectric refrigeration systems using Peltier effect. Expression for COP. Criterion for

selecting thermoelectric effects. Vortex tube refrigeration – principle and working.

Unit-IV

Psychrometric properties of air: Psychrometric chart and psychrometric processes and combination of

processes. By pass factor. SHR and Room conditioning using SHR with and without recirculation

.Design and classification of Air conditioning systems, RSHF, GSHF, ERSF. Human comfort and

tolerances. ASHRAE comfort charts. Effective temperature.


7


Unit-V

Cryogenics: Limitations of single stage vapour compression systems applied to low temperature

applications. Multistage compression and cascade systems for production of low temperature .Joule

Thompson effect and coefficient. Inversion curve. Liquification of air using Linde and cloud systems.

Liquification of hydrogen and helium. Application of cryogenics in metallurgy, cryobiology and

cryosurgery.

Suggested Reading:

1. Arora& Domkundwar, “ A Course in Refrigeration and Air conditioning”, 8th Edition, Dhanpatrai & Co, 2008.

2. Roy J. Dossat, “Principles of Refrigeration”, 5th edition, Pearson Education, 2001 3. R.S. Khurmi& J.K. Gupta, “Refrigeration and air conditioning”, 5th revised edition, S Chand

& Co, 2008.

4. ordon &Priester, “Principles of Refrigeration and Air Conditioning”, Prentice Hall, India,1988 Arora C.P., “Refrigeration and Air Conditioning”, Tata McGraw Hill, New Delhi,

1988.


8






PE3204ME

FINITE ELEMENT ANALYSIS (Professional Elective-II)

Course code PEC

Category Professional Elective Course

Course title Finite Element Analysis



Unit-I Introduction: Introduction to Finite Element Method ,solution method using FEM, discretization ,Boundary conditions, load application, types of elements comparison, Stress and Equilibrium, Boundary conditions. Strain-Displacement relations. Stress-strain relations. Types of elements used. Convergence requirements and geometric isotropy. Local, natural and global coordinates. One Dimensional problems :Finite element modeling, coordinates and shape functions. Potential Energy approach: Assembly of Global stiffness matrix and load vector. Finite element equations,

Treatment of boundary conditions. Quadratic shape functions.

Unit-II Analysis of trusses and frames: Element stiffness matrix for a truss member. Analysis of plane truss with number of unknowns not exceeding two at each node. Analysis of frames with two translations and a rotational degree of freedom at each node. Analysis of Beams: Element stiffness matrix for two nodded, two degrees of freedom per node beam element.

Unit-III Finite element modeling of two dimensional stress analysis with constant strain triangles and treatment of boundary conditions. Finite element modeling of Axisymmetirc solids subjected to Axisymmetric loading with triangular elements.

Unit-IV Two dimensional four nodded isoperimetric elements and numerical integration. Steady state heat transfer analysis: One dimensional analysis of a find and two dimensional analysis of thin plate. Analysis of uniform shaft subjected to torsion.

Unit-V Dynamic Analysis: Formulation of finite element mode, element matrices, evaluation of Eigen values and Eigen vectors for a stepped bar and a beam. Time dependent field problems: Application to one dimensional heat flow in a rod. Finite element formation to three dimensional problems in stress analysis. Introduction to Finite Element Analysis Software.


9


Suggested Reading: 1. Tirupathi R. Chandraputla and Ashok, D. Belgundu” Introduction to Finite Elements in Engineering”, Pearson Education, 2002, 3rd Edition. 2. Rao S.S., “The Finite Element Methods in Engineering”, pergamonPress, 1989. 3. Segerlind, L.J. “Applied Finite Element Analysis”, Wiley Publication, 1984. 4. Reddy J.N., “An Introduction to Finite Element Method”, McGraw-Hill Company, 1984.


10






PE3205ME

FATIGUE CREEP AND FRACTURE (Professional Elective-II)

Course code PEC


Course title Fatigue Creep and Fracture



Unit I:

Design philosophy : Infinite life, Safe life, Fail safe and Damage tolerant design concepts.

Fatigue Design : Cyclic stress and stress reversals, Fatigue and progressive fracture, Endurance limit,

Fatigue Tests : Cantilever and Beam type of Fatigue Tests, Axial Fatigue Tests. Influence of mean stress

on fatigue : Gerber, Goodman and Soderberg’s criteria. Effect of compressive cyclic stress on fatigue.

Fatigue design formula for axial, bending, torsional and combined loading.

Unit II:

Fatigue controlling factors: Effect of frequency, Temperature, size, form, stress concentration factors,

Notch, sensitivity & surface conditions, residual stresses. Improvement of fatigue strength by

chemical/metallurgical processes such as nitriding, flame hardening, case carburizing. Fatigue strength

enhancement by mechanical work : cold rolling, peening, shot peening.

Unit III:

Effect of environment : Corrosion Fatigue, Concept of cumulative fatigue damage

Fracture Mechanics : Ductile and brittle fracture Theoretical cohesive strength of metals, Griffith Theory

of brittle Fracture, Oruron’s modification to Griffith Theory.

Unit IV:

Modes of fracture :Mode-I, -II and -III, fatigue crack growth, Behavior of metals, Linear Elastic Fracture

Mechanics (LEFM), Stress Intensity Factor(SIF), Stress field near the crack tip, Critical SIF and Fracture

Toughness, Experimental determination of fracture toughness KIC , COD gauge sand standard ASTM

Tests.

Strain Energy Release Rates (SERR), Elasto-Plastic Fracture Mechanics (EPFM), Plastic zone size and

its evaluation, J-Integral Method.

Unit V:

Creep Analysis :Definition, Constant stress and constant, strain creep tests. Uniaxial creep tests : Baily’s

Power Law, Creep relaxation : strain hardening and time hardening creep relaxation. Introduction to

Creep bending and deflection of simple problems.


11


Suggested Reading

1. George E. Dieter, Mechanical Metallurgy, - McGraw Hill, NY,1988 2. Joseph Marin,Mechanical Behaviour of Engg.Materials,-PrenticeHallofIndia,1966 3. Stephens, R.I. and Fuchs,H.O.,Metal Fatigue in Engg.,-Wiley, NY2001 4. Finnie, I. and Heller, W.R., Creep of Engg. Materials, - McGraw Hill BookCo.,1959 5. Prasant Kumar, Fracture Mechanics


12






PE3206ME

THEORY OF ELASTICITY (Professional Elective-II)

Course code PEC


Course title Theory of Elasticity



Unit-I Analysis of Stress: Stress tensor, Equilibrium equations in Cartesian coordinates, Two dimensional stress

at a point and principal stresses. Three dimensional stress at a point and principal stresses. Stresses on an

oblique plane in terms of principal stresses.

Unit-II

Analysis of Strain: Strains in terms of displacements in Cartesian coordinates, Equations of

compatibility, Generalized Hook’s Law and Lame’s constants, Strain energy, Dilatational and

distortional energy, St. Venant’s principle.

Unit-III Two dimensional problems: Plane stress, Plane strain problems: Stress function, Bi-harmonic equation,

Equilibrium equations, Strain displacement relations and compatibility equations in polar coordinates,

Stress concentration.

Unit-IV

Bending of straight beams and curved beams, stresses in curved beams, expression for radius of

curvature of neutral axis for rectangular, circular, trapezoidal and T-sections .Design of crane Hook, C-

clamp. Design of chain drives: Power rating of roller chains. Strength of roller chains. Torsion of shafts,

Membrane analogy. Bending of plates.

Unit-V Axi-symmetric problems, Thick walled cylinders subjected to internal and external pressures, Stresses in

composite tubes, Rotating disks of uniform and variable thickness. General treatment of column stability

problems.

Suggested Reading:

1. L.S. Srinath, “Advanced Mechanics of Solids”, Tata McGraw Hill Publ. Co., 1970. 2. S. Timeshenko& J.N. Goodier, “Theory of Elasticity”, Tata McGraw Hill, 1970. 3. A.C. Uguaral, “Advanced Strength and Theory of Elasticity”, Elsevier Publication, 1965. 4. S. Singh, “Theory of Elasticity”, Khanna Publishers, 1979.


13






HS3208

Managerial Economics and Accountancy (Humanity Sciences)

Course code HS

Category Humanity Sciences

Course title Managerial Economics and Accountancy



UNIT-I

Meaning and Nature of Managerial Economics: Managerial Economics and its usefulness to Engineers,

Fundamental Concepts of Managerial Economics-Scarcity, Marginalism, Equimarginalism, Opportunity

costs, Discounting, Time Perspective, Risk and Uncertainty, Profits, Case study method.

UNIT-II

Consumer Behavior: Law of Demand, Determinants, Types of Demand; Elasticity of Demand (Price,

Income and Cross-Elasticity); Demand Forecasting, Law of Supply and Concept of Equilibrium.

UNIT-III

Theory of Production and Markets: Production Function, Law of Variable Proportion, ISO quants,

Economics of Scale, Cost of Production (Types and their measurement), Concept of Opportunity Cost,

Concept of Revenue, Cost-Output relationship, Break-Even Analysis, Price - Output determination under

Perfect Competition and Monopoly.

UNIT-IV

Capital Management: Significance, determination and estimation of fixed and working capital

requirements, sources of capital, Introduction to capital budgeting, methods of payback and discounted

cash flow methods with problems.

UNIT-V

Book-keeping: Principles and significance of double entry book keeping, Journal, Subsidiary books,

Ledger accounts, Trial Balance, concept and preparation of Final Accounts with simple adjustments,

Analysis and interpretation of Financial Statements through Ratios.

Suggested Reading:

1. Mehta P.L., Managerial Economics - Analysis, Problems and Cases,Sulthan Chand & Sons

Educational Publishers, 2011

2. Maheswari S.N., Introduction to Accountancy, Vikas Publishing House, 2005

3.Pandey I.M., Financial Management, Vikas Publishing House, 2009


14


Faculty of Engineering &Technology

KAKATIYA UNIVERSITY, WARANGAL-506009



PC3210ME

METAL CUTTING SCIENCE LAB

List of Experiments:

1. Grinding of a single point cutting tool.

2. Determination of shear angle in turning process.

3. Determination of shear angle in shaping process.

4. Study of chip formation in machining Ferrous and Non-Ferrous materials.

5. Determination of average chip-tool interface temperature by natural work-

6. Tool thermocouple method.

7. Determination of cutting forces in turning operation using a lathe-tool dynamometer

8. Tool wear measurement

9. Demonstration of Machinability of Mild Steel using Abrasive Water Jet

10. Demonstration of wire cut EDM for making slots in Tool Industry

Course code PCC


Course title Metal Cutting science Lab

Scheme and

Credits L T P Credits Internal marks = 25

- - 3 1.5 External Marks = 50


15






PC3211ME

THERMAL ENGINEERING-II LAB

List of Experiments:

1. Thermal Conductivity of Insulating Powder.

2. Heat Transfer from vertical tube by Natural Convection.

3. Heat Transfer through pin fin by natural and forced convection.

4. Heat Transfer by forced convection.

5. Heat Transfer through composite walls.

6. Emissivity of test plate.

7. Heat Transfer through metal rod.

8. Parallel and counter flow heat exchangers.

9. Heat transfer through two slab gaurded apparatus.

10. Heat transfer through heat pipe.

11. Estimation of Stefan Boltzman’s constant.

12. Calibration of thermocouple.

13. C.O.P. of vapor compression refrigeration system.

14. Performance of Vapor Absorption Refrigeration System.

15. Performance testing of window air-conditioner

16. Separating and throttling calorimeter

Any ten (10) experiments can be conducted

Course code PCC


Course title Thermal Engineering-II Lab

Scheme and

Credits L T P Credits Internal marks = 25

- - 3 1.5 External Marks = 50


16






PW3211ME SUMMER INTERNSHIP

Course Objectives:

To give an experience to the students in solving real life practical problems with all its constraints.

To give an opportunity to integrate different aspects of learning with reference to real life problems.

To enhance the confidence of the students while communicating with industry engineers and give an opportunity for useful interaction with them and familiarize with work culture and ethics of

the industry.

Course Outcomes: Student will be

Able to design/develop a small and simple product in hardware or software.

Able to complete the task or realize a prespecified target, with limited scope, rather than taking up a complex task and leave it.

Able to learn to find alternate viable solutions for a given problem and evaluate these alternatives with reference to prespecified criteria.

Able to implement the selected solution and document the same.

Summer Internship is introduced as part of the curricula for encouraging students to work on problems of

interest to industries. A batch of two or three students will be attached to a person from anMechanical

Industry / R & D Organization / National Laboratory for a period of 8 weeks. This will be during the

summer vacation following the completion of the VI semester course. One faculty member will act as an

internal guide for each batch to monitor the progress and interacts with the Industry guide.

After the completion of the project, students will submit a brief technical report on the project

executed and present the work through a seminar talk to be organized by the department. After the

completion of the project, students will submit a brief technical report on the project executed and

present the work through a seminar talk to be organized by the department. Award of sessional are to be

based on the performance of the student at the work place to be judged by industry guide and internal

guide (25 Marks) followed by presentation before the committee constituted by the department (25

Marks). One faculty member will coordinate the overall activity of Summer Internship.

*Students have to undergo summer internship of 6 Weeks duration at the end of semester VI

Course code PW3211

Category Project Work

Course title Summer Internship

Scheme and

Credits L T P Credits Internal marks = --

- - - - External Marks = --


17

Annexure

Students can select any one of the following subjects as an Open elective subject.

Open Elective subjects offered from different department

Sl. No Course Code Name of the subject Branch

1 OE3213EC Microprocessor and Interfacing ECE

2 OE3207CS Fundamentals of Data Structures CSE


18




B. Tech. (MECH) VI SEMESTER

OPEN ELECTIVE-I

OE3113EC MICROPROCESSORS AND INTERFACING

Course code OE3113EC

Category Open Elective Course

Course title Microprocessors And Interfacing



UNIT I

Evolution of microprocessors, 8085 microprocessor architecture, addressing modes and instruction sets.

Basic assembly language programming, pin configuration, timing diagram of read and write operation.

UNIT II

8086 architecture-functional block diagram, register organization, memory segmentation, programming

model, pins description in maximum mode and minimum mode, timing diagrams.

UNIT III

Instruction formats, addressing modes, classification of instruction set, assembler directives, macros,

8086 microprocessor assembly language programs: simple programs involving data transfer operation,

arithmetic operation, logical operation, branch operation, machine control operation, string

manipulations, stack and subroutine operations.

UNIT IV

8255 Programmable peripheral interface block diagram and various modes of operation. Interfacing of

ADC, DAC, keyboard, seven segment display, stepper motor interfacing and 8254 (8253) programmable

interval timers.

UNIT V

Interrupt structure of 8086, interfacing programmable interrupt controller 8259 and DMA Controller

8257 to 8086 microprocessor. Serial communication standards, RS 232 ,Serial data transfer schemes and

block diagram of 8251 USART.

Suggested Readings:

1. Ramesh Gaonkar, "Microprocessor architecture, programming and applications with the 8085",

Penram International Publication (India) Pvt. Ltd.

2. Douglas V. Hall, "Microprocessors and Interfacing", Tata McGraw Hill Publication.

3. Sivarama P. Dandamudi, "Introduction to Assembly Language Programing From 8086 to Pentium

Processors", Springer Publication.

4. Walter A. Triebel and Avtar Singh, "The 8088 and 8086 Microprocessors: Programming, Interfacing

Software, Hardware and Applications", Pearson Publication.

5. A. K. Ray and K. M. Bhurchandi, "Advance microprocessors and Peripherals" Tata McGraw Hill

Publication.

6. Lyla B. Das, "The X86 Microprocessors, Architecture, Programming and Interfacing (8086 to

Pentium)", Pearson Publication.


19




B. Tech. (ECE) VI SEMESTER

OPEN ELECTIVE – I

OE3207CS FUNDAMENTALS OF DATA STRUCTURES

Course code OE3207CS

Category Open Elective Course

Course title Fundamentals Of Data Structures



UNIT-I

Introduction: Introduction to data structure, types of data structures, revision of arrays, memory

representation of arrays, operations on arrays, static versus dynamic memory allocation, pointers, self-

referential Structure Time complexity.

UNIT-II

Stack-Queue (Linear Data structures): Definition of stack, operations on stack, implementation of stack.

Applications of Stack.

UNIT-III

Definition of queue, operations on queue, implementation of queue using arrays

Applications of queue, Circular queue and priority queue.

UNIT-IV

Trees-Graphs (Nonlinear Data structures): definition of trees, Terminology on trees, binary tree, binary

search tree and its operations, tree traversal techniques. Applications of Trees.

UNIT-V

Graph: definition, terminology on graphs, representation of graphs, graph traversal techniques, spanning

tree, minimum cost spanning tree algorithms. Applications of Graphs.

Text Books:

1. Sahni Horowitz, “Fundamentals of data structures in C”, Universities Press, second edition, 2008,

ISBN No- 978-8173716058.

2. R Venkatesan,S Lovelyn Rose,“Data structures”,Wiley, second edition, 2019, ISBN No-978-

8126577149.

References:

1.Narasimha Karumanchi, “Data Structures and Algorithms Made Easy: Data Structures and

Algorithmic Puzzles”, Careermonk Publications, 2016, ISBN-No: 978-8193245279.

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